The fractal brain: scale-invariance in structure and dynamics

Cereb Cortex. 2023 Apr 4;33(8):4574-4605. doi: 10.1093/cercor/bhac363.

Abstract

The past 40 years have witnessed extensive research on fractal structure and scale-free dynamics in the brain. Although considerable progress has been made, a comprehensive picture has yet to emerge, and needs further linking to a mechanistic account of brain function. Here, we review these concepts, connecting observations across different levels of organization, from both a structural and functional perspective. We argue that, paradoxically, the level of cortical circuits is the least understood from a structural point of view and perhaps the best studied from a dynamical one. We further link observations about scale-freeness and fractality with evidence that the environment provides constraints that may explain the usefulness of fractal structure and scale-free dynamics in the brain. Moreover, we discuss evidence that behavior exhibits scale-free properties, likely emerging from similarly organized brain dynamics, enabling an organism to thrive in an environment that shares the same organizational principles. Finally, we review the sparse evidence for and try to speculate on the functional consequences of fractality and scale-freeness for brain computation. These properties may endow the brain with computational capabilities that transcend current models of neural computation and could hold the key to unraveling how the brain constructs percepts and generates behavior.

Keywords: fractality; power law; scale-free dynamics; scale-free structure; self-organized criticality.

Publication types

  • Review
  • Research Support, Non-U.S. Gov't

MeSH terms

  • Brain* / diagnostic imaging
  • Fractals*